EXPERIMENTAL RESEARCH ON BOND PROPERTIES OF LARGE-DIAMETER PRESTRESSED STEEL STRANDS
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摘要: 在大吨位预应力情况下,大直径预应力钢绞线较普通直径预应力钢绞线(1×7结构、公称直径15.2 mm)有着明显的优势。目前国内已有多种型号的大直径预应力钢绞线应用于工程,但对其在混凝土(先张法情况)或水泥浆中(后张法情况)的黏结性能还不明确,而黏结性能对预应力构件的裂缝和刚度控制至关重要。为此,以1×19结构、公称直径21.8 mm的大直径预应力钢绞线为对象,进行了30个试件的静力拉拔试验。通过试验及分析,获得了黏结破坏形式,探明了钢绞线直径、黏结长度及黏结方式对钢绞线黏结性能的影响,获得了钢绞线的黏结应力-滑移曲线以及相对黏结特性系数,并结合相关构件的受弯裂缝试验研究结果,认为后张法大直径预应力钢绞线的黏结性能相对普通预应力钢绞线有所降低,但对构件的正常使用性能影响不大。Abstract: Under the condition of large-tonnage prestressing, the large-diameter prestressed steel strands has obvious advantages compared with the ordinary diameter prestressed steel strands (1×7 structure, nominal diameter 15.2 mm). At present, many types of large-diameter prestressed steel strands have been used in engineering in China, but its bond performance in concrete (pretensioning method) or in cement paste (post tensioning method) is not very clear. The bond performance is very important to the crack and stiffness control of prestressed members. To this end, the large-diameter prestressed steel strands with a 1×19 structure and a nominal diameter of 21.8 mm was taken as the object, and a static pull-out test was conducted on 30 specimens. Through the analysis of the test results, the bond failure modes were obtained,and the influence of the diameter, bonding length and bonding method of the steel strands on the bonding performance of the steel strands was investigated, and the bonding stress-slip curve and the relative bonding characteristic coefficient of the steel strands were obtained. Combined with the experimental results of the flexural crack of the relevant concrete members, it was believed that the post-tensioned large-diameter prestressed steel strands had a lower bonding performance than the that of ordinary prestressed steel strands, but it had little effect on the normal performance of the members.
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[1] 中华人民共和国住房和城乡建设部.混凝土结构设计规范:GB 50010-2010[S].北京:中国建筑工业出版社, 2015. [2] 中华人民共和国住房和城乡建设部.混凝土结构试验方法标准:GB/T 50152-2012[S].北京:中国建筑工业出版社, 2012. [3] 杜毛毛, 苏小卒.带肋钢筋和钢绞线黏结性能试验研究[J].建筑材料学报, 2010, 13(2):175-181. [4] 杨雨.FRP筋混凝土梁裂缝宽度的计算方法[J].水力发电学报, 2008, 27(6):79-83. [5] 薛伟辰, 王晓辉.高性能碳纤维增强塑料(CFRP)绞线筋黏结性能研究[J].建筑结构学报, 2006, 27(6):67-73. [6] 徐有邻, 宇秉训, 朱龙, 等.钢绞线基本性能与锚固长度的试验研究[J].建筑结构, 1996, 25(3):34-38, 53. [7] 张晓石.大直径钢绞线预应力混凝土梁受弯裂缝试验研究[D].重庆:重庆大学, 2013.
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